/* ----------------------------------------------------------------------------
- * $Id: Closures.h,v 1.16 2000/01/18 12:36:38 simonmar Exp $
+ * $Id: Closures.h,v 1.26 2001/02/11 17:51:08 simonmar Exp $
*
* (c) The GHC Team, 1998-1999
*
/* All closures follow the generic format */
-typedef struct StgClosure_ {
+struct StgClosure_ {
StgHeader header;
struct StgClosure_ *payload[0];
-} StgClosure;
+};
/* What a stroke of luck - all our mutable closures follow the same
* basic layout, with the mutable link field as the second field after
typedef struct StgMutClosure_ {
StgHeader header;
- StgPtr *padding;
+ StgWord padding;
struct StgMutClosure_ *mut_link;
struct StgClosure_ *payload[0];
} StgMutClosure;
StgHeader header;
StgWord n_args;
StgClosure *fun;
- StgPtr payload[0];
+ StgClosure *payload[0];
} StgPAP;
typedef struct {
StgHeader header;
StgWord n_args;
StgClosure *fun;
- StgPtr payload[0];
+ StgClosure *payload[0];
} StgAP_UPD;
typedef struct {
- StgHeader header;
- StgWord n_ptrs;
- StgWord n_words;
- StgWord n_instrs;
- StgWord stgexpr;
- StgPtr payload[0];
-} StgBCO;
-
-typedef struct {
StgHeader header;
StgClosure *indirectee;
} StgInd;
} StgIndOldGen;
typedef struct {
- StgHeader header;
- StgClosure *indirectee;
- StgClosure *static_link;
-} StgIndStatic;
-
-typedef struct StgCAF_ {
StgHeader header;
- StgClosure *body;
- StgMutClosure *mut_link;
- StgClosure *value;
- struct StgCAF_ *link;
-} StgCAF;
+ StgClosure *indirectee;
+ StgClosure *static_link;
+ struct _StgInfoTable *saved_info;
+} StgIndStatic;
typedef struct {
StgHeader header;
StgMutClosure *mut_link;
} StgMutVar;
+typedef struct {
+ StgHeader header;
+ StgArrWords *instrs; /* a pointer to an ArrWords */
+ StgArrWords *literals; /* a pointer to an ArrWords */
+ StgMutArrPtrs *ptrs; /* a pointer to a MutArrPtrs */
+ StgArrWords *itbls; /* a pointer to an ArrWords */
+} StgBCO;
+
+/*
+ A collective typedef for all linkable stack frames i.e.
+ StgUpdateFrame, StgSeqFrame, StgCatchFrame
+*/
+typedef struct _StgFrame {
+ StgHeader header;
+ struct _StgFrame *link;
+} StgFrame;
+
typedef struct _StgUpdateFrame {
StgHeader header;
struct _StgUpdateFrame *link;
#if defined(PAR) || defined(GRAN)
/*
- StgBlockingQueueElement represents the types of closures that can be
- found on a blocking queue: StgTSO, StgRBHSave, StgBlockedFetch.
- (StgRBHSave can only appear at the end of a blocking queue).
- Logically, this is a union type, but defining another struct with a common
- layout is easier to handle in the code (same as for StgMutClosures).
+ StgBlockingQueueElement is a ``collective type'' representing the types
+ of closures that can be found on a blocking queue: StgTSO, StgRBHSave,
+ StgBlockedFetch. (StgRBHSave can only appear at the end of a blocking
+ queue). Logically, this is a union type, but defining another struct
+ with a common layout is easier to handle in the code (same as for
+ StgMutClosures).
+ Note that in the standard setup only StgTSOs can be on a blocking queue.
+ This is one of the main reasons for slightly different code in files
+ such as Schedule.c.
*/
typedef struct StgBlockingQueueElement_ {
StgHeader header;
- struct StgBlockingQueueElement_ *link;
- StgMutClosure *mut_link;
- struct StgClosure_ *payload[0];
+ struct StgBlockingQueueElement_ *link; /* next elem in BQ */
+ StgMutClosure *mut_link; /* next elem in mutable list */
+ struct StgClosure_ *payload[0];/* contents of the closure */
} StgBlockingQueueElement;
+/* only difference to std code is type of the elem in the BQ */
typedef struct StgBlockingQueue_ {
StgHeader header;
- struct StgBlockingQueueElement_ *blocking_queue;
- StgMutClosure *mut_link;
+ struct StgBlockingQueueElement_ *blocking_queue; /* start of the BQ */
+ StgMutClosure *mut_link; /* next elem in mutable list */
} StgBlockingQueue;
-/* this closure is hanging at the end of a blocking queue in (par setup only) */
+/* this closure is hanging at the end of a blocking queue in (see RBH.c) */
typedef struct StgRBHSave_ {
StgHeader header;
- StgPtr payload[0];
-} StgRBHSave;
-
+ StgClosure *payload[0]; /* 2 words ripped out of the guts of the */
+} StgRBHSave; /* closure holding the blocking queue */
+
typedef struct StgRBH_ {
- StgHeader header;
- struct StgBlockingQueueElement_ *blocking_queue;
- StgMutClosure *mut_link;
+ StgHeader header;
+ struct StgBlockingQueueElement_ *blocking_queue; /* start of the BQ */
+ StgMutClosure *mut_link; /* next elem in mutable list */
} StgRBH;
#else
/* global indirections aka FETCH_ME closures */
typedef struct StgFetchMe_ {
StgHeader header;
- globalAddr *ga; /* type globalAddr is abstract here */
- StgMutClosure *mut_link;
+ globalAddr *ga; /* ptr to unique id for a closure */
+ StgMutClosure *mut_link; /* next elem in mutable list */
} StgFetchMe;
/* same contents as an ordinary StgBlockingQueue */
typedef struct StgFetchMeBlockingQueue_ {
StgHeader header;
- struct StgBlockingQueueElement_ *blocking_queue;
- StgMutClosure *mut_link;
+ struct StgBlockingQueueElement_ *blocking_queue; /* start of the BQ */
+ StgMutClosure *mut_link; /* next elem in mutable list */
} StgFetchMeBlockingQueue;
-/* entry in a blocking queue, indicating a request from a TSO on another PE */
+/* This is an entry in a blocking queue. It indicates a fetch request from a
+ TSO on another PE demanding the value of this closur. Note that a
+ StgBlockedFetch can only occur in a BQ. Once the node is evaluated and
+ updated with the result, the result will be sent back (the PE is encoded
+ in the globalAddr) and the StgBlockedFetch closure will be nuked.
+*/
typedef struct StgBlockedFetch_ {
StgHeader header;
- struct StgBlockingQueueElement_ *link;
- StgMutClosure *mut_link;
- StgClosure *node;
- globalAddr ga;
-} StgBlockedFetch;
+ struct StgBlockingQueueElement_ *link; /* next elem in the BQ */
+ StgMutClosure *mut_link; /* next elem in mutable list */
+ StgClosure *node; /* node to fetch */
+ globalAddr ga; /* where to send the result to */
+} StgBlockedFetch; /* NB: not just a ptr to a GA */
#endif
#endif /* CLOSURES_H */